探讨青春期前儿童髋关节结构的性别差异。
Investigation of sex differences in hip structure in peripubertal children.
机构信息
Academic Rheumatology, Clinical Science at North Bristol, University of Bristol, and Avon Orthopaedic Centre, Southmead Hospital, Bristol BS10 5NB, United Kingdom.
出版信息
J Clin Endocrinol Metab. 2010 Aug;95(8):3876-83. doi: 10.1210/jc.2009-2446. Epub 2010 May 19.
CONTEXT
There is evidence that sex differences in hip structure are increased during puberty, possibly as a consequence of associated changes in body composition.
OBJECTIVES
The objective of the study was to explore relationships between sex, puberty, hip structure, and body composition.
DESIGN/SETTING: The design was a longitudinal birth cohort study: The Avon Longitudinal Study of Parents and Children.
PARTICIPANTS
Participants included 3914 boys and girls (mean age 13.8 yr).
OUTCOME MEASURES
Measures included dual-energy x-ray absorptiometry-derived femoral neck width (FNW), cortical thickness (CT), bending strength [cross-sectional moment of inertia (CSMI)], section modulus, buckling ratio (BR), and femoral neck and total hip bone mineral density.
RESULTS
FNW, CT, and CSMI were higher in boys, whereas BR was lower in girls (P<0.001). Differences in hip structure were studied according to puberty (self-completion Tanner stage questionnaires). FNW, CT, and CSMI were higher in Tanner stage IV/V vs. I/II, particularly in boys (P<0.001, puberty-sex interaction). BR was lower in Tanner stage IV/V, particularly in girls (P=0.008, puberty-sex interaction). Adjusting for height, fat mass, and lean mass resulted in differential attenuation in the sexes, such that CT attenuated by about 80% and about 40% in boys and girls, respectively (P=0.004, puberty-sex interaction for adjusted CT, Tanner stages I/II vs. IV/V). The difference in BR showed little attenuation after adjustment.
CONCLUSION
During puberty, hip-bending strength increases, particularly in boys, due to their greater FNW, reflecting changes in height, fat mass, and lean mass. In contrast, BR falls during puberty, particularly in girls, reflecting their smaller FNW relative to CT, involving mechanisms partly independent of height and body composition.
背景
有证据表明,青春期髋关节结构的性别差异会增加,这可能是由于身体成分的相关变化所致。
目的
本研究旨在探讨性别、青春期、髋关节结构和身体成分之间的关系。
设计/设置:该设计是一项纵向出生队列研究:阿冯纵向父母和子女研究。
参与者
参与者包括 3914 名男孩和女孩(平均年龄 13.8 岁)。
测量指标
包括双能 X 射线吸收法测量的股骨颈宽度(FNW)、皮质厚度(CT)、弯曲强度[横截面积惯性矩(CSMI)]、截面模量、屈曲比(BR)以及股骨颈和全髋关节骨密度。
结果
FNW、CT 和 CSMI 在男孩中较高,而 BR 在女孩中较低(P<0.001)。根据青春期(自我完成的 Tanner 阶段问卷)研究了髋关节结构的差异。与 I/II 期相比,在 Tanner 阶段 IV/V 期,FNW、CT 和 CSMI 更高,尤其是在男孩中(P<0.001,青春期-性别交互作用)。BR 在 Tanner 阶段 IV/V 期较低,尤其是在女孩中(P=0.008,青春期-性别交互作用)。调整身高、脂肪量和瘦体量后,男女之间的差异有所减弱,CT 在男孩和女孩中分别减弱了约 80%和 40%(P=0.004,青春期-性别交互作用,Tanner 阶段 I/II 期与 IV/V 期)。BR 的差异在调整后几乎没有减弱。
结论
在青春期,髋关节弯曲强度增加,尤其是在男孩中,这是由于他们的 FNW 较大,反映了身高、脂肪量和瘦体量的变化。相比之下,BR 在青春期下降,尤其是在女孩中,这反映了她们的 FNW 相对于 CT 较小,涉及与身高和身体成分部分独立的机制。
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